BACKGROUND: Buthus martensii Karsch is a rare medicinal animal, and dried integral Buthus rnartensii Karsch is an important drug in traditional Chinese medicine. OBJECTIVE: To investigate the effects of scorpion ven...BACKGROUND: Buthus martensii Karsch is a rare medicinal animal, and dried integral Buthus rnartensii Karsch is an important drug in traditional Chinese medicine. OBJECTIVE: To investigate the effects of scorpion venom analgesic active peptide (SAP) extracted from Buthus martensii Karsch on evoked unit discharge of the common peroneal nerve in the posterior nucleus group of the thalamus using a stereotaxic electrophysiological extracellular microelectrode recording. DESIGN, TIME AND SETTING: One-way designed study, performed in the Physiological Laboratory of Shenyang Medical College on September 15, 2006. MATERIALS: Fifty 3-4 months old Wistar rats (25 males and 25 females) were used. SAP was provided by Shenyang Pharmaceutical University. Morphine solution was made by the First Drug Manufactory, Northeastern Drug Manufacture Group (batch number: H20013351). Naloxone solution was made by Hunan Pharmaceutical Co., Ltd. (batch number: H43021669). Type ATAC-350 medical data processing equipment was made by the Photoelectricity Company, Japan. METHODS: Fifty rats were randomly divided into the SAP group (n=20), saline group (n=10), morphine group (n=10), or naloxone group (n=10). In the SAP group, the common peroneal nerve was separated and stimulated with a single square wave (17-19 V intensity; 0.2 ms width; 20 ms retardation time). Subsequently, SAP (0.01%, 2 μL) was injected into the posterior nucleus group of the thalamus. Rats in the naloxone group were injected with naloxone (1.0 mg/kg i.v.) before SAP injection. Rats in the saline group and the morphine group were injected with saline (2 μL) or morphine (0.01%, 2μL), respectively, before SAP injection. Other procedures were the same as those in the SAP group. MAIN OUTCOME MEASURES: Evoked discharge in the posterior nucleus group of the thalamus and effects of SAP alone and SAP in combination with saline, morphine, or naloxone on discharges in the posterior nucleus group of the thalamus as measured by TQ-19 medical data processing equipment. RESULTS: SAP group: At 1-3 minutes after SAP injection, evoked discharges in the posterior nucleus group of the thalamus were inhibited, and the inhibitory time lasted for (45.0±0.7) minutes. Saline group: Evoked discharges in the posterior nucleus group of the thalamus did not change after saline injection. Morphine group: At 1-3 minutes after morphine injection, evoked discharges in the posterior nucleus group of the thalamus were inhibited, and the inhibitory time lasted for (35.0±7.8) minutes. Naloxone group: SAP had no effects on evoked potentials in the posterior nucleus group of the thalamus. CONCLUSION: The inhibitory effect of SAP on evoked potentials was superior to that of morphine at the same concentration (2 μL of 0.01% solution). Naloxone resupination demonstrated that the inhibitory effects of SAP on evoked discharges were influenced by the opioid receptor.展开更多
In vivo experiments were designed to verify the analgesic effect of Dragon’s Blood and the material basis for this effect.Extracellular microelectrode recordings were used to observe the effects of Dragon’s Blood an...In vivo experiments were designed to verify the analgesic effect of Dragon’s Blood and the material basis for this effect.Extracellular microelectrode recordings were used to observe the effects of Dragon’s Blood and various combinations of the three components(cochinchinenin A,cochinchinenin B,and loureirin B)extracted from Dragon’s Blood on the discharge activities of wide dynamic range(WDR)neurons in spinal dorsal horn(SDH)of intact male Wistar rats evoked by electric stimulation at sciatic nerve.When the Hill's coefficients describing the dose-response relations of drugs were dif-ferent,based on the concept of dose equivalence,the equations of additivity surfaces which can be applied to assess the interaction between three drugs were derived.Adopting the equations and Tal-larida's isobole equations used to assess the interaction between two drugs with dissimilar dose-response relations,the effects produced by various combinations of the three components in modulating the evoked discharge activities of WDR neurons were evaluated.Results showed that Dragon’s Blood and its three components could inhibit the evoked discharge frequencies of WDR neurons in a concentration-dependent way.The Hill's coefficients describing dose-response relations of three components were different.Only the combined effect of cochinchinenin A,cochinchinenin B and loureirin B was similar to that of Dragons Blood.Furthermore,the combined effect was synergistic.This investigation demonstrated that through the synergistic interaction of the three components Dragon’s Blood could interfere with the transmission and processing of pain signals in spinal dorsal horn.All these further proved that the combination of cochinchinenin A,cochinchinenin B,and loureirin B was the material basis for the analgesic effect of Dragon’s Blood.展开更多
Background:The cardinal features of Parkinson’s disease(PD)are bradykinesia,rigidity and rest tremor.Abnormal activity in the basal ganglia is predicted to underlie the mechanism of motor symptoms.This study aims to ...Background:The cardinal features of Parkinson’s disease(PD)are bradykinesia,rigidity and rest tremor.Abnormal activity in the basal ganglia is predicted to underlie the mechanism of motor symptoms.This study aims to characterize properties of oscillatory activity in the basal ganglia and motor thalamus in patients with PD.Methods:Twenty-nine patients with PD who underwent bilateral or unilateral electrode implantation for subthalamic nucleus(STN)DBS(n=11),unilateral pallidotomy(n=9)and unilateral thalamotomy(n=9)were studied.Microelectrode recordings in the STN,globus pallidus internus(GPi)and ventral oral posterior/ventral intermediate of thalamus(Vop/Vim)were performed.Electromyography of the contralateral limbs was recorded.Single unit characteristics including interspike intervals were analyzed.Spectral and coherence analyses were assessed.Mean spontaneous firing rate(MSFR)of neurons was calculated.Analysis of variance and χ^(2) test were performed.Results:Of 76 STN neurons,39.5% were 4–6 Hz band oscillatory neurons and 28.9% were β frequency band(βFB)oscillatory neurons.The MSFR was 44.2±7.6 Hz.Of 62 GPi neurons,37.1% were 4–6 Hz band oscillatory neurons and 27.4% were βFB neurons.The MSFR was 80.9±9.6 Hz.Of 44 Vop neurons,65.9% were 4–6 Hz band oscillatory neurons and 9%were βFB neurons.The MSFR was 24.4±4.2 Hz.Of 30 Vim oscillatory neurons,70% were 4–6 Hz band oscillatory neurons and 13.3% were β FB neurons.The MSFR was 30.3±3.6 Hz.Further analysis indicated that proportion of βFB oscillatory neurons in STN and GPi was higher than that of similar neurons in the Vop and Vim(P<0.05).Conversely,the proportion of 4–6 Hz band oscillatory neurons and tremor related neurons in the Vim and Vop was higher than that of STN and GPi(P<0.05).The highest MSFR was for GPi oscillatory neurons whereas the lowest MSFR was for Vop oscillatory neurons(P<0.005).Conclusion:The alterations in neuronal activity in basal ganglia play a critical role in generation of parkinsonism.β oscillatory activity is more prominent in basal ganglia than in thalamus suggesting that the activity likely results from dopaminergic depletion.While both basal ganglia and thalamus have tremor activity,the thalamus appears to play a more important role in tremor production,and basal ganglia β oscillatory activity might be the trigger.展开更多
文摘BACKGROUND: Buthus martensii Karsch is a rare medicinal animal, and dried integral Buthus rnartensii Karsch is an important drug in traditional Chinese medicine. OBJECTIVE: To investigate the effects of scorpion venom analgesic active peptide (SAP) extracted from Buthus martensii Karsch on evoked unit discharge of the common peroneal nerve in the posterior nucleus group of the thalamus using a stereotaxic electrophysiological extracellular microelectrode recording. DESIGN, TIME AND SETTING: One-way designed study, performed in the Physiological Laboratory of Shenyang Medical College on September 15, 2006. MATERIALS: Fifty 3-4 months old Wistar rats (25 males and 25 females) were used. SAP was provided by Shenyang Pharmaceutical University. Morphine solution was made by the First Drug Manufactory, Northeastern Drug Manufacture Group (batch number: H20013351). Naloxone solution was made by Hunan Pharmaceutical Co., Ltd. (batch number: H43021669). Type ATAC-350 medical data processing equipment was made by the Photoelectricity Company, Japan. METHODS: Fifty rats were randomly divided into the SAP group (n=20), saline group (n=10), morphine group (n=10), or naloxone group (n=10). In the SAP group, the common peroneal nerve was separated and stimulated with a single square wave (17-19 V intensity; 0.2 ms width; 20 ms retardation time). Subsequently, SAP (0.01%, 2 μL) was injected into the posterior nucleus group of the thalamus. Rats in the naloxone group were injected with naloxone (1.0 mg/kg i.v.) before SAP injection. Rats in the saline group and the morphine group were injected with saline (2 μL) or morphine (0.01%, 2μL), respectively, before SAP injection. Other procedures were the same as those in the SAP group. MAIN OUTCOME MEASURES: Evoked discharge in the posterior nucleus group of the thalamus and effects of SAP alone and SAP in combination with saline, morphine, or naloxone on discharges in the posterior nucleus group of the thalamus as measured by TQ-19 medical data processing equipment. RESULTS: SAP group: At 1-3 minutes after SAP injection, evoked discharges in the posterior nucleus group of the thalamus were inhibited, and the inhibitory time lasted for (45.0±0.7) minutes. Saline group: Evoked discharges in the posterior nucleus group of the thalamus did not change after saline injection. Morphine group: At 1-3 minutes after morphine injection, evoked discharges in the posterior nucleus group of the thalamus were inhibited, and the inhibitory time lasted for (35.0±7.8) minutes. Naloxone group: SAP had no effects on evoked potentials in the posterior nucleus group of the thalamus. CONCLUSION: The inhibitory effect of SAP on evoked potentials was superior to that of morphine at the same concentration (2 μL of 0.01% solution). Naloxone resupination demonstrated that the inhibitory effects of SAP on evoked discharges were influenced by the opioid receptor.
基金the Nature Science Foundation of State Ethnic Affairs Commission,China(Grant No.MZY06002)
文摘In vivo experiments were designed to verify the analgesic effect of Dragon’s Blood and the material basis for this effect.Extracellular microelectrode recordings were used to observe the effects of Dragon’s Blood and various combinations of the three components(cochinchinenin A,cochinchinenin B,and loureirin B)extracted from Dragon’s Blood on the discharge activities of wide dynamic range(WDR)neurons in spinal dorsal horn(SDH)of intact male Wistar rats evoked by electric stimulation at sciatic nerve.When the Hill's coefficients describing the dose-response relations of drugs were dif-ferent,based on the concept of dose equivalence,the equations of additivity surfaces which can be applied to assess the interaction between three drugs were derived.Adopting the equations and Tal-larida's isobole equations used to assess the interaction between two drugs with dissimilar dose-response relations,the effects produced by various combinations of the three components in modulating the evoked discharge activities of WDR neurons were evaluated.Results showed that Dragon’s Blood and its three components could inhibit the evoked discharge frequencies of WDR neurons in a concentration-dependent way.The Hill's coefficients describing dose-response relations of three components were different.Only the combined effect of cochinchinenin A,cochinchinenin B and loureirin B was similar to that of Dragons Blood.Furthermore,the combined effect was synergistic.This investigation demonstrated that through the synergistic interaction of the three components Dragon’s Blood could interfere with the transmission and processing of pain signals in spinal dorsal horn.All these further proved that the combination of cochinchinenin A,cochinchinenin B,and loureirin B was the material basis for the analgesic effect of Dragon’s Blood.
基金This work was supported by the National Natural Science Foundation of China(NSFC)(No.81371256,81171061,81361128012)Ministry of Education of Republic of China(BIBD-PXM2013-014226-07-000084)Seed Grant of International Alliance of Translational Neuroscience(PXM2014-014226-000015).
文摘Background:The cardinal features of Parkinson’s disease(PD)are bradykinesia,rigidity and rest tremor.Abnormal activity in the basal ganglia is predicted to underlie the mechanism of motor symptoms.This study aims to characterize properties of oscillatory activity in the basal ganglia and motor thalamus in patients with PD.Methods:Twenty-nine patients with PD who underwent bilateral or unilateral electrode implantation for subthalamic nucleus(STN)DBS(n=11),unilateral pallidotomy(n=9)and unilateral thalamotomy(n=9)were studied.Microelectrode recordings in the STN,globus pallidus internus(GPi)and ventral oral posterior/ventral intermediate of thalamus(Vop/Vim)were performed.Electromyography of the contralateral limbs was recorded.Single unit characteristics including interspike intervals were analyzed.Spectral and coherence analyses were assessed.Mean spontaneous firing rate(MSFR)of neurons was calculated.Analysis of variance and χ^(2) test were performed.Results:Of 76 STN neurons,39.5% were 4–6 Hz band oscillatory neurons and 28.9% were β frequency band(βFB)oscillatory neurons.The MSFR was 44.2±7.6 Hz.Of 62 GPi neurons,37.1% were 4–6 Hz band oscillatory neurons and 27.4% were βFB neurons.The MSFR was 80.9±9.6 Hz.Of 44 Vop neurons,65.9% were 4–6 Hz band oscillatory neurons and 9%were βFB neurons.The MSFR was 24.4±4.2 Hz.Of 30 Vim oscillatory neurons,70% were 4–6 Hz band oscillatory neurons and 13.3% were β FB neurons.The MSFR was 30.3±3.6 Hz.Further analysis indicated that proportion of βFB oscillatory neurons in STN and GPi was higher than that of similar neurons in the Vop and Vim(P<0.05).Conversely,the proportion of 4–6 Hz band oscillatory neurons and tremor related neurons in the Vim and Vop was higher than that of STN and GPi(P<0.05).The highest MSFR was for GPi oscillatory neurons whereas the lowest MSFR was for Vop oscillatory neurons(P<0.005).Conclusion:The alterations in neuronal activity in basal ganglia play a critical role in generation of parkinsonism.β oscillatory activity is more prominent in basal ganglia than in thalamus suggesting that the activity likely results from dopaminergic depletion.While both basal ganglia and thalamus have tremor activity,the thalamus appears to play a more important role in tremor production,and basal ganglia β oscillatory activity might be the trigger.
